Method and system for multi-spectral imaging in the visible and infrared spectrums

ABSTRACT

Multi-spectral images are detected using a refractive objective lens system. Magnesium oxide (MgO) and calcium fluoride (CaF 2 ) lenses are used to image scenes in both the visible and infra-red (IR) spectrums. The inventors have discovered that the combination of magnesium oxide, only recently made available in a pure crystal form, and calcium fluoride can be used to fabricate an objective lens for imaging objects in both the visible and infra-red spectrums. Moreover, the combination of magnesium oxide and calcium fluoride results in a super-achromatic condition across visible and infra-red spectrums. This chromatically-corrected spectral range includes wavelengths between 0.4 and 5.9 microns which covers medium-wave IR (MWIR), short-wave IR (SWIR), and the near-IR/visible windows. Combinations of MgO and CaF 2  lenses are used in different compound objective lens designs including doublet, Petzval, inverted telephoto, and telephoto arrangements. Visible and/or IR applications for the multi-spectral objective lens system include telescopes, reconnaissance planes, satellites, forward-looking IR (FLIR) and staring sensor systems, night-vision goggles, and other optic and/or electro-optic detection systems.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to the field of optics. More specifically, the present invention provides a multi-spectral objective using a combination of magnesium oxide and calcium fluoride lenses to image visible and infrared wavelengths.

2. Related Art

Many imaging applications such as air-borne reconnaissance and tracking systems demand detection in both visible and infra-red spectrums. Typically, separate objectives must be used because no single objective lens system can accommodate multi-spectral images at both visible and infra-red wavelengths with adequate resolution. In particular, conventional refractive IR objectives disperse visible light, thereby, degrading image quality. Increasingly industry has been forced to less desirable reflective-type IR objectives.

What is needed is an objective lens system using refractive components that provides high-quality multi-spectral imaging in both visible and infrared spectrums.

SUMMARY OF THE INVENTION

The present invention is directed to a multi-spectral objective lens system. Two materials are used to fabricate lenses in the objective lens system: magnesium oxide (MgO) and calcium fluoride (CaF₂). According to a first embodiment of the invention, a magnesium oxide lens and a calcium fluoride lens, in any order, form a doublet which images wavelengths in the visible and infra-red spectrums. Further embodiments include combinations of MgO and CaF₂ lenses in different objective lens designs including Petzval, inverted telephoto, and telephoto arrangements.

Thus, the inventors have discovered that the combination of magnesium oxide, only recently made available in a pure crystal form, and calcium fluoride can be used to fabricate an objective lens for imaging objects in both the visible and infra-red spectrums. The combination of magnesium oxide and calcium fluoride results in a super-achromatic condition, that is color correction across the visible and infra-red spectrums. This chromatically-corrected spectral range includes wavelengths between approximately 0.4 and 5.9 microns which covers medium-wave IR (MWIR), short-wave IR (IR), and the near-IR/visible windows.

The objective lens according to the present invention is well-suited for telescopes, reconnaissance planes, satellites, forward-looking IR (FLIR) and staring sensor systems, night-vision goggles, and other optic and/or electro-optic detection systems in visible and/or IR applications.

Further features and advantages of the present invention, as well as the structure and operation of various embodiments of the present invention, are described in detail below with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE FIGURES

The present invention is described with reference to the accompanying drawings. In the drawings, like reference numbers typically indicate identical or functionally similar elements. Additionally, the left-most digit(s) of a reference number identifies the drawing in which the reference number first appears.

In the Drawings:

FIG. 1 is a multi-spectral objective lens system in a doublet arrangement according to a first embodiment of the present invention.

FIG. 2 is a multi-spectral objective lens system in a Petzval arrangement according to a second embodiment of the present invention.

FIG. 3 is a multi-spectral objective lens system in an inverted telephoto arrangement according to a third embodiment of the present invention.

FIG. 4 is a multi-spectral objective lens system in an inverted telephoto arrangement according to a fourth embodiment of the present invention.

FIG. 5 is a multi-spectral objective lens system in a telephoto arrangement according to a fifth embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Overview

The present invention is directed to a multi-spectral objective lens system. Two materials are used to fabricate lenses in the objective lens system: magnesium oxide (MgO) and calcium fluoride (CaF₂). A doublet consisting of a first lens formed from magnesium oxide and a second lens formed from calcium fluoride images wavelengths in the visible and infra-red spectrums. Combinations of MgO and CaF₂ lenses are used in different compound objective lens designs including Petzval, inverted telephoto, and telephoto arrangements. Previously, there has been no suggestion of using both MgO and CaF₂ lenses in a multi-spectral lens combination. The two materials were incompatible for forming a common objective lens system imaging visible and IR light. Magnesium oxide was practically limited to IR light. For example, MgO produced in a hot press form by Kodak under the trade name IRTRAN 5 lacks sufficient homogeneity or clarity for use in the visible spectral range. Magnesium oxide only recently has been made available in a pure crystal form. For example, Commercial Crystal Laboratories, Inc., a Florida corporation, now supplies MgO crystals. The inventors have discovered that such a MgO crystal can be used as an optics material for imaging visible and IR light.

The inventors have further discovered that the combination of magnesium oxide and calcium fluoride, in any order, can be used to fabricate an objective lens for imaging objects in both the visible and infra-red spectrums. The inventors found based on the Abbe values for MgO and CaF₂ lenses that a super-achromatic condition is achieved for this combination of materials superior to other combinations of lens material. The Abbe value is a constant of an optical medium that describes the ratio of refractivity to dispersion. A difference in this ratio is necessary to achieve an achromatic condition. Two materials having a large difference in the Abbe value is an advantage in achieving an achromatic condition. The inventors computed an Abbe value for MgO and CaF₂ lenses for three spectrums, 0.4-0.7, 1.4-2.2, and 3.4 to 5.0 microns. The computed Abbe values for the three spectrums indicates that a super-achromatic condition is achieved by the MgO and CaF₂ combination which achromatizes all three spectrums simultaneously.

Thus, the inventors have discovered that the combination of magnesium oxide and calcium fluoride results in a super-achromatic condition, that is color correction across the visible and infra-red spectrums. This chromatically-corrected spectral range includes wavelengths between approximately 0.4 and 5.9 microns, and in particular, between 0.55 and 5.35 microns, which covers medium-wave IR (MWIR), short-wave IR (IR), and near-IR/visible windows.

The objective lens according to the present invention is well-suited for telescopes, reconnaissance planes, satellites, forward-looking IR (FLIR) and staring sensor systems, night-vision goggles, and other optic and/or electro-optic detection systems in visible and/or IR applications.

Doublet Lens Design

FIG. 1 illustrates an objective lens system 100 according to a first embodiment of the present invention. Objective lens system 100 provides multi-spectral imaging in both the visible and infra-red spectrums. The objective lens system 100 consists of a first lens element 110 and a second lens element 120. The first and second lens elements 110 and 120 are arranged to form a doublet, i.e. a classic flint forward doublet, disposed along a common optical axis O. The doublet focuses multiple wavelengths at a common focal plane F. The first lens element 120 is made of magnesium oxide (MgO), i.e. a MgO crystal. The second lens element 130 is made of calcium fluoride (CaF₂).

As discussed above, the objective lens system 100 provides a super-achromatic condition for visible through infra-red wavelengths including, but not limited to, the range between 0.4 and 5.9 μm. The prescription for one example of objective lens system 100 is compiled in Table 1 below. In this example, the effective focal length is 12.0034 inches, the f-number (F/#) is 9.3605, and the field of view angle is four degrees. The conic constant equals zero. The index of refraction for the MgO material ranges from 1.7405 to 1.6240 for wavelengths between 0.55 to 5.35 μm (inclusive). The index of refraction for the CaF₂ material ranges from 1.4348 to 1.39460 for wavelengths between 0.55 to 5.35 μm (inclusive).

                  TABLE 1                                                          ______________________________________                                         Surface                                                                               Radius (in.)                                                                              Thickness (in.)                                                                           Material                                                                              Diameter (in.)                             ______________________________________                                         102    3.377785   0.1330925  MgO    1.756062                                   103    2.155341   0.01330925 air    1.707015                                   104    2.086584   0.3327312  CaF.sub.2                                                                             1.709893                                   105    134.0277   4          air    1.685772                                   ______________________________________                                    

Petzval Type Lens Design

FIG. 2 illustrates an objective lens system 200 according to a second embodiment of the present invention. Objective lens system 200 is arranged in a Petzval type of lens design and provides multi-spectral imaging in both the visible and infra-red spectrums. The objective lens system 200 includes first through fifth lens elements, 220 to 260, disposed along a common optical axis O. In one doublet, first lens element 220 is made of magnesium oxide (MgO). The second lens element 230 is made of calcium fluoride (CaF₂). Likewise, in a second doublet, third lens element 240 is made of MgO and fourth lens element 250 is made of CaF₂. A stop or physical aperture 205 is included between the two doublets, that is between lens elements 230 and 240. An additional fifth lens element 260 is added to flatten the typically curved Petzval focal plane.

As discussed above, the objective lens system 200 provides a super-achromatic condition for visible and infra-red wavelengths. This includes, but is not limited to, the range between 0.4 and 5.9 μm. The prescription for one example of objective lens system 200 is compiled in Table 2 below. In this example, the effective focal length is 5.2894 inches, the f-number (F/#) is 3.2057, and the field of view angle is eight degrees. The conic constant equals zero except for surface 209 which has a constant equal to -5.7132. The index of refraction for the MgO material ranges from 1.7405 to 1.6240 for wavelengths between 0.55 to 5.35 μm (inclusive). The index of refraction for the CaF₂ material ranges from 1.4348 to 1.39460 for wavelengths between 0.55 to 5.35 μm (inclusive).

                  TABLE 2                                                          ______________________________________                                         Surface                                                                               Radius (in.)                                                                              Thickness (in.)                                                                           Material                                                                              Diameter (in.)                             ______________________________________                                         202    2.75       0.1466     MgO    1.84982                                    203    1.689      0.3666     CaF.sub.2                                                                             1.76331                                    204    -25.709    0.98825           1.74089                                    205    infinity   2.073             1.405998                                   206    4.289      0.1466     MgO    1.383331                                   207    1.9617     0.43995    CaF.sub.2                                                                             1.354132                                   208    -2.925     2.529             1.347788                                   209    -1.1957    0.0733     CaF.sub.2                                                                             0.7366471                                  210    infinity   0.1787855         0.73747998                                 ______________________________________                                    

Inverted Telephoto Type Lens Designs

FIG. 3 illustrates an objective lens system 300 according to a third embodiment of the present invention. Objective lens system 300 is arranged in an inverted telephoto type of lens design and provides multi-spectral imaging in both the visible and infra-red spectrums. The objective lens system 300 includes three lens groupings 330, 340, and 350. These three groups include first through ninth lens elements, 332, 334, 342, 344, 346, 348, 352, 354, and 356 disposed along a common optical axis O.

In the first group 330, first lens element 332 is made of magnesium oxide (MgO) and the second lens element 334 is made of calcium fluoride (CaF₂). Likewise, in the second group 340, third and fifth lens elements 342, 346 are made of MgO. Fourth and sixth lens elements 344, 348 are made of CaF₂. In the third group 350, the seventh and ninth lens elements 352, 356 are made of CaF₂ and surround the eighth lens element 354 made of MgO. A stop or physical aperture 310 is included between the two doublets, that is between fourth and fifth lens elements 344 and 346 as shown.

As discussed above, the objective lens system 300 provides a super-achromatic condition for visible and infra-red wavelengths. This includes, but is not limited to, the range between 0.4 and 5.9 μm. The prescription for one example of objective lens system 300 is compiled in Table 3 below. In this example, the effective focal length is 6.0676 inches, the f-number (F/#) is 3.7923, and the field of view angle is 22 degrees. The conic constant equals zero. The index of refraction for the MgO material ranges from 1.7405 to 1.6240 for wavelengths between 0.55 to 5.35 μm (inclusive). The index of refraction for the CaF₂ material ranges from 1.4348 to 1.39460 for wavelengths between 0.55 to 5.35 μm (inclusive).

                  TABLE 3                                                          ______________________________________                                         Surface                                                                               Radius (in.)                                                                              Thickness (in.)                                                                           Material                                                                              Diameter (in.)                             ______________________________________                                         302    infinity   0.48       MgO    3.295302                                   303    -12.37896  0.5019428         3.211953                                   304    -5.121251  0.3428571  CaF.sub.2                                                                             2.978004                                   305    3.45979    5.023917          2.798337                                   306    -114.467   0.2742857  MgO    3.164553                                   307    6.720905   0.2468571         3.191547                                   308    5.813471   0.6171428  CaF.sub.2                                                                             3.335289                                   309    -4.305556  0.1028571         3.34016                                    310    infinity   0.1028571         3.26582                                    311    3.75086    0.3428571  MgO    3.188348                                   312    2.80682    0.2057143         3.036389                                   313    3.050408   0.7542857  CaF.sub.2                                                                             3.13994                                    314    66.94763   6.843282          3.129624                                   315    4.348838   1.234286   CaF.sub.2                                                                             2.962569                                   316    -4.054665  0.2057143         2.794528                                   317    -3.500591  0.2742857  MgO    2.654563                                   318    19.01012   0.2057143         2.642477                                   319    2.378518   0.8228571  CaF.sub.2                                                                             2.680185                                   320    2.621247   2.898204          2.432032                                   ______________________________________                                    

FIG. 4 illustrates an objective lens system 400 according to a fourth embodiment of the present invention. Objective lens system 400 is arranged in another inverted telephoto type of lens design and provides multi-spectral imaging in both the visible and infra-red spectrums. The objective lens system 400 includes first through seventh lens elements, 420 to 480 disposed along a common optical axis O. First, second, fifth, and sixth lens elements, 420, 430, 460, and 470, respectively, are made of CaF₂. Inner third and fourth lens elements 440, 450 are made of MgO. The seventh lens element 480 is made of barium fluoride (BrF₂).

A stop or physical aperture 408 is included between the two MgO lens elements 440, 450 as shown. The first lens element 420 and the seventh lens element 480 combine to produce an anastigmatic image across the field.

As discussed above, the objective lens system 400 provides a super-achromatic condition for visible and infra-red wavelengths. This includes, but is not limited to, the range between 0.4 and 5.9 μm. The prescription for one example of objective lens system 400 is compiled in Table 4 below. In this example, the effective focal length is 6.1421 inches, the f-number (F/#) is 2.7298, and the field of view angle is 22 degrees. The conic constant equals zero except for surface 415 which has a constant equal to -0.4. The index of refraction for the MgO material ranges from 1.7405 to 1.6240 for wavelengths between 0.55 to 5.35 μm (inclusive). The index of refraction for the CaF₂ material ranges from 1.4348 to 1.39460 for wavelengths between 0.55 to 5.35 μm (inclusive).

                  TABLE 4                                                          ______________________________________                                         Surface                                                                               Radius (in.)                                                                              Thickness (in.)                                                                           Material                                                                              Diameter (in.)                             ______________________________________                                         402    2.844668   0.7        CaF.sub.2                                                                             3.700449                                   403    2.202348   2.2               3.182788                                   404    2.341079   0.7136391  CaF.sub.2                                                                             2.664106                                   405    -75.59034  0.2721544         2.497632                                   406    4.14811    0.2        MgO    2.12412                                    407    2.736832   0.3               1.928946                                   408    infinity   0.2391751         1.873357                                   409    141.6627   0.2        MgO    1.88868                                    410    3.109891   0.05              1.959391                                   411    2.938415   0.72       CaF.sub.2                                                                             2.031865                                   412    173.6085   0.1               2.229428                                   413    4.914444   0.7        CaF.sub.2                                                                             2.358269                                   414    -3.305643  4.364573          2.425191                                   415    -2.049313  0.1        Barium 2.245672                                                                Fluoride                                          416    infinity   0.09370708        2.392193                                   ______________________________________                                    

Telephoto Type Lens Design

FIG. 5 illustrates an objective lens system 500 according to a fifth embodiment of the present invention. Objective lens system 500 is arranged in a telephoto type of lens design and provides multi-spectral imaging across the visible and infra-red spectrums. The objective lens system 500 includes three lens groupings 520, 530, and 540. These three groups include first through sixth lens elements, 524, 526, 532, 534, and 540 disposed along a common optical axis O.

In the first group 520, the first lens element 522 is made of magnesium oxide (MgO). The second and third lens elements 524, 526 are made of calcium fluoride (CaF₂). In the second group 530, fourth and fifth lens elements 532, 534 are made of MgO and CaF₂, respectively. The third group 540 consists of a single CaF₂ lens element 540. A stop or physical aperture 507 is included between the first two lens groupings 520, 530 that is between third and fourth lens elements 526 and 532 as shown.

As discussed above, the objective lens system 500 provides a super-achromatic condition for visible and infra-red wavelengths. This includes, but is not limited to, the range between 0.4 and 5.9 μm. The prescription for one example of objective lens system 500 is compiled in Table 5 below. In this example, the effective focal length is 9.1667 inches, the f-number (F/#) is 5.5556, and the field of view angle is eight degrees. The conic constant equals zero for all surfaces except for surface 511 where the conic constant equals -5.7132. The index of refraction for the MgO material ranges from 1.7405 to 1.6240 for wavelengths between 0.55 to 5.35 μm (inclusive). The index of refraction for the CaF₂ material ranges from 1.4348 to 1.39460 for wavelengths between 0.55 to 5.35 μm (inclusive).

                  TABLE 5                                                          ______________________________________                                         Surface                                                                               Radius (in.)                                                                              Thickness (in.)                                                                           Material                                                                              Diameter (in.)                             ______________________________________                                         502    7.320726   0.1466     MgO    1.92148                                    503    2.187264   0.3666     CaF.sub.2                                                                             1.865819                                   504    -15.85229  0.1               1.859174                                   505    2.269012   0.3        CaF.sub.2                                                                             1.820605                                   506    -345.7257  1.0               1.784194                                   507    infinity   1.3               1.30319                                    508    4.696846   0.25       MgO    1.127906                                   509    17.5268    0.15       CaF.sub.2                                                                             1.088754                                   510    1.376359   2.529             1.040998                                   511    infinity   0.1        CaF.sub.2                                                                             1.182727                                   512    infinity   1.756735          1.186851                                   ______________________________________                                    

Tables 1 to 5 provide specific prescription data in examples of objective lenses systems 100 to 500. It would be apparent to one skilled in the art given this description that different values can be substituted within design tolerance limits.

Simulations testing each of the above objective lens systems 100 to 500 in a range from 0.55 to 5.35 μm. indicate high image-quality performance is achieved beyond commercial design expectation limits for visible and IR objectives. The paraxial focal chromatic shift is on the order (i.e. within a factor of 2) of the diffraction limit. Likewise, the diffraction encircled energy is nearly diffraction limited. The fraction of encircled energy for various field points is on the order of the maximum diffraction limit (i.e. within a factor of 2)--even for radii less than 6 microns. Finally, the modulus of the optical transfer function (MTF) taken over the 0.55 to 5.35 μm. range demonstrates a quality image is obtained. For example, the MTF for various field points remained greater than 0.1 even at a spatial frequency of 100 cycles per millimeter.

Conclusion

While various embodiments of the present invention have been described above, it should be understood that they have been presented by way of example only, and not limitation. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Thus, the breadth and scope of the present invention should not be limited by any of the above-described exemplary embodiments, but should be defined only in accordance with the following claims and their equivalents. 

What is claimed is:
 1. A multi-spectral objective lens system for imaging light in a wavelength range which includes visible and infrared wavelengths, comprising:a first lens made of magnesium oxide; and a second lens made of calcium fluoride, wherein said first lens has first and second surfaces and said second lens has third and fourth surfaces, said first lens and said second lens having the following prescription:

    ______________________________________                                         Surface Radius (in.)  Thickness (in.)                                                                             Material                                    ______________________________________                                         first   3.377785      0.1330925    MgO                                         second  2.155341      0.01330925   air                                         third   2.086584      0.3327312    CaF.sub.2                                   fourth  134.0277      4            air                                         ______________________________________                                    


2. The system of claim 1, wherein the wavelength range includes approximately 0.55 to 5.35 μm wavelengths.
 3. The system of claim 1, wherein the wavelength range includes medium-wave infrared, short-wave infra-red, near-infra-red, and visible wavelengths.
 4. The system of claim 1, wherein said first lens and said second lens focus visible and infra-red light.
 5. The system of claim 1, wherein said first lens and said second lens chromatically correct visible and infra-red light.
 6. The system of claim 1, wherein,said index of refraction for said magnesium oxide in said first lens is within a range of approximately 1.7 to 1.6 for wavelengths of light at or between approximately 0.55 to 5.35 μm, and said index of refraction for said calcium fluoride in said second lens is within a range from approximately 1.4 to 1.3 for wavelengths of light at or between approximately 0.55 to 5.35 μm.
 7. The system of claim 1, wherein said first lens and said second lens are included in a compound objective lens assembly.
 8. The system of claim 1, wherein said first and second lenses comprise a classic flint forward doublet arrangement.
 9. The system of claim 1, wherein said first lens is made of a substantially pure magnesium oxide crystal.
 10. The system of claim 1, wherein said first lens and said second lens are disposed along a common optical axis between an object side and a focal plane side, said first lens being disposed between said object side and said second lens.
 11. The system of claim 1, wherein said first lens and said second lens are disposed along a common optical axis between an object side and a focal plane side, said first lens being disposed between said second lens and said focal plane side.
 12. A multi-spectral objective lens system for imaging light in a wavelength range which includes visible and infrared wavelengths, comprising:a first lens made of magnesium oxide; a second lens made of calcium fluoride; a third lens made of magnesium oxide; and a fourth lens made of calcium fluoride; wherein said first lens, said second lens, said third lens, and said fourth lens are arranged along a common optical axis according to a Petzval design.
 13. The system of claim 14, wherein said first lens has first and second surfaces, said second lens has third and fourth surfaces, said third lens has fifth and sixth surfaces, said fourth lens has seventh and eighth surfaces; said first to fourth lenses having the following prescription:

    ______________________________________                                         Surface    Radius (in.)                                                                               Thickness (in.)                                                                           Material                                     ______________________________________                                         first      2.75        0.1466     MgO                                          second, third                                                                             1.689       0.3666     CaF.sub.2                                    fourth     -25.709     0.98825                                                 fifth      4.289       0.1466     MgO                                          sixth, seventh                                                                            1.9617      0.43995    CaF.sub.2                                    eighth     -2.925      2.529                                                   ______________________________________                                    


14. A multi-spectral objective lens system for imaging light in a wavelength range which includes visible and infrared wavelengths, comprising:a first lens made of magnesium oxide; a second lens made of calcium fluoride; a third lens made of magnesium oxide; a fourth lens made of calcium fluoride; a fifth lens made of magnesium oxide; a sixth lens made of calcium fluoride; a seventh lens made of calcium fluoride; an eighth lens made of magnesium oxide; and a ninth lens made of calcium fluoride; wherein said first to ninth lenses are arranged along a common optical axis according to an inverted telephoto design.
 15. The system of claim 14, wherein said first to ninth lenses have first to eighteenth lens surfaces, respectively, according to the following prescription:

    ______________________________________                                         Surface   Radius (in.) Thickness (in.)                                                                           Material                                     ______________________________________                                         first     infinity     0.48       MgO                                          second    -12.37896    0.5019428                                               third     -5.121251    0.3428571  CaF.sub.2                                    fourth    3.45979      5.023917                                                fifth     -114.467     0.2742857  MgO                                          sixth     6.720905     0.2468571                                               seventh   5.813471     0.6171428  CaF.sub.2                                    eighth    -4.305556    0.1028571                                               ninth     3.75086      0.3428571  MgO                                          tenth     2.80682      0.2057143                                               eleventh  3.050408     0.7542857  CaF.sub.2                                    twelfth   66.94763     6.843282                                                thirteenth                                                                               4.348838     1.234286   CaF.sub.2                                    fourteenth                                                                               -4.054665    0.2057143                                               fifteenth -3.500591    0.2742857  MgO                                          sixteenth 19.01012     0.2057143                                               seventeenth                                                                              2.378518     0.8228571  CaF.sub.2                                    eighteenth                                                                               2.621247     2.898204                                                ______________________________________                                    


16. A multi-spectral objective lens system for imaging light in a wavelength range which includes visible and infrared wavelengths, comprising:first and second lenses made of calcium fluoride; third and fourth lenses made of magnesium oxide; and fifth and sixth lenses made of calcium fluoride; wherein, said first to sixth lenses are arranged along a common optical axis according to an inverted telephoto design.
 17. The system of claim 16, wherein said first to sixth lenses have first to twelfth lens surfaces, respectively, according to the following prescription:

    ______________________________________                                         Surface Radius (in.)  Thickness (in.)                                                                           Material                                      ______________________________________                                         first   2.844668      0.7        CaF.sub.2                                     second  2.202348      2.2                                                      third   2.341079      0.7136391  CaF.sub.2                                     fourth  -75.59034     0.2721544                                                fifth   4.14811       0.2        MgO                                           sixth   2.736832      0.3                                                      seventh 141.6627      0.2        MgO                                           eighth  3.109891      0.05                                                     ninth   2.938415      0.72       CaF.sub.2                                     tenth   173.6085      0.1                                                      eleventh                                                                               4.914444      0.7        CaF.sub.2                                     twelfth -3.305643     4.364573                                                 ______________________________________                                    


18. A multi-spectral objective lens system for imaging light in a wavelength range which includes visible and infrared wavelengths, comprising:a first lens made of magnesium oxide; a second lens made of calcium fluoride; a third lens made of calcium fluoride; a fourth lens made of magnesium oxide; a fifth lens made of calcium fluoride; and a sixth lens made of calcium fluoride; wherein said first to sixth lenses are arranged along a common optical axis according to a telephoto lens design.
 19. The system of claim 18, wherein said first to sixth lenses have first to tenth lens surfaces, respectively, according to the following prescription:

    ______________________________________                                         Surface Radius (in.)  Thickness (in.)                                                                           Material                                      ______________________________________                                         first   7.320726      0.1466     MgO                                           second  2.187264      0.3666     CaF.sub.2                                     third   -15.85229     0.1                                                      fourth  2.269012      0.3        CaF.sub.2                                     fifth   -345.7257     1.0                                                      sixth   4.696846      0.25       MgO                                           seventh 17.5268       0.15       CaF.sub.2                                     eighth  1.376359      2.529                                                    ninth   infinity      0.1        CaF.sub.2                                     tenth   infinity      1.756735                                                 ______________________________________                                    


20. A method for detecting visible and infra-red images comprising the steps of:arranging a magnesium oxide lens and a calcium fluoride lens to form a doublet; and passing light through the magnesium oxide lens and the calcium fluoride lens in the doublet, wherein the light exiting the doublet is focused at a common focal plane to detect visible and infra-red images, and said magnesium oxide lens has first and second surfaces and said calcium fluoride lens has third and fourth surfaces according to the following prescription:

    ______________________________________                                         Surface Radius (in.)  Thickness (in.)                                                                             Material                                    ______________________________________                                         first   3.377785      0.1330925    MgO                                         second  2.155341      0.01330925   air                                         third   2.086584      0.3327312    CaF.sub.2                                   fourth  134.0277      4            air                                         ______________________________________                                    


21. The method of claim 20, further comprising the step of chromatically correcting said light passing through said magnesium oxide and calcium fluoride lenses. 